Camera device and monitoring system

1. A camera device having a function for converting an image formed by a lens and captured by an imaging element into image data and correcting distortion of the image data caused by distortion aberration of the lens, the camera device comprising: first storage means for storing first distortion correction parameters for correcting the distortion of the image data in a first state caused by the distortion aberration of the lens; second storage means for storing second distortion correction parameters for correcting the distortion of the image data in a second state caused by the distortion aberration of the lens; and distortion-correction-parameter interpolation means for generating distortion correction parameters through interpolation when transition of the image data from the first state to the second state is performed, the distortion correction parameters indicating states of the image data during the transition of the image data and correcting the distortion of the image data caused by the distortion aberration of the lens, wherein when circular interpolation is performed using the distortion correction parameters, the distortion-correction-parameter interpolation means sets the origin of the image data as a center, a sum of components of each of a plurality of vectors (X, Y) corresponding to lattice points of a transition source and a sum of components of each of a plurality of vectors (X, Y) corresponding to lattice points of a transition destination are obtained whereby an angle φ is obtained by an arctan, the plurality of vectors (X, Y) indicating the distortion correction parameters, a step angle ⊖ is obtained by dividing the angle φ by the number of steps of transition, the angle ⊖ is added to the angle φ of each of the lattice point of the transition source in every step, a coefficient Kx, for which the origin 0 is set as the center, is obtained by a sine function and Ky, for which the origin 0 is set as the center, is obtained by a cosine function, and the Kx and Ky are multiplied by X and Y, respectively, whereby interpolation is completed.

2. The camera device according to claim 1 , wherein the total number of pixels receiving light of the imaging element is larger than the total number of pixels of an image output from the camera device after the distortion correction.

3. The camera device according to claim 1 , wherein the lens is a super-wide-angle lens.

4. The camera device according to claim 1 , wherein a direction of the lens is fixed.

5. The camera device according to claim 1 , wherein the distortion-correction-parameter interpolation means includes hardware.

6. The camera device according to claim 1 , wherein the distortion correction parameters for correcting the distortion of the image data in the first state and the distortion of the image data in the second state are stored in advance in a storage device in control means for reading/writing the distortion correction parameters from/to the first storage means and the second storage means, are obtained by calculation using the control means, or are obtained from an external device communicating with the camera device.

7. The camera device according to claim 1 , wherein the transition of the image data from the first state to the second state is performed by changing a field angle of the image data, rotating the image data, inversion processing of the image data, or a combination thereof and furthermore the transition is performed by cutout processing of an arbitrary portion of the image data, changing of a field angle of the arbitrary portion of the image data, cutout processing of an arbitrary portion by rotation setting an arbitrary base point in the image data as a center, inversion processing of the arbitrary portion of the image data, and a combination thereof, and moreover the transition is performed by changing a size of the arbitrary portion of the image data, or moving the image data to an arbitrary position.

8. A monitoring system for transmitting an image captured by one or more monitoring cameras having a super-wide-angle lens through a transmission line to a host computer, the monitoring system comprising: distortion correction means for correcting distortion of image data caused by distortion aberration of the lens, the image data being obtained by being formed by the super-wide-angle lens and being captured by an imaging element, the distortion correction means being included in the one or more monitoring cameras; wherein the distortion correction means includes, first storage means for storing first distortion correction parameters for correcting the distortion of the image data in a first state caused by the distortion aberration of the lens, second storage means for storing second distortion correction parameters for correcting the distortion of the image data in a second state caused by the distortion aberration of the lens, and distortion-correction-parameter interpolation means for generating distortion correction parameters through interpolation when transition of the image data from the first state to the second state is performed, the distortion correction parameters indicating states of the image data during the transition of the image data and correcting the distortion of the image data caused by the distortion aberration of the lens, wherein when circular interpolation is performed using the distortion correction parameters, the distortion-correction-parameter interpolation means sets the origin of the image data as a center, a sum of components of each of a plurality of vectors (X, Y) corresponding to lattice points of a transition source and a sum of components of each of a plurality of vectors (X, Y) corresponding to lattice points of a transition destination are obtained whereby an angle φ is obtained by an arctan, the plurality of vectors (X, Y) indicating the distortion correction parameters, a step angle ⊖ is obtained by dividing the angle φ by the number of steps of transition, the angle ⊖ is added to the angle φ of each of the lattice point of the transition source in every step, a coefficient Kx, for which the origin 0 is set as the center, is obtained by a sine function and Ky, for which the origin 0 is set as the center, is obtained by a cosine function, and the Kx and Ky are multiplied by X and Y, respectively, whereby interpolation is completed.

9. The monitoring system according to claim 8 , wherein the total number of pixels receiving light of the imaging element of the one or more monitoring cameras is larger than the total number of pixels of an image output from the one or more monitoring cameras after the distortion correction.

10. A camera device having a function for converting an image formed by a lens and captured by an imaging element into image data and correcting distortion of the image data caused by distortion aberration of the lens, the camera device comprising: a first storage unit configured to store first distortion correction parameters for correcting the distortion of the image data in a first state caused by the distortion aberration of the lens; a second storage unit configured to store second distortion correction parameters for correcting the distortion of the image data in a second state caused by the distortion aberration of the lens; and a distortion-correction-parameter interpolator configured to generate distortion correction parameters through interpolation when transition of the image data from the first state to the second state is performed, the distortion correction parameters indicating states of the image data during the transition of the image data and correcting the distortion of the image data caused by the distortion aberration of the lens, wherein when circular interpolation is performed using the distortion correction parameters, the distortion-correction-parameter interpolation means sets the origin of the image data as a center, a sum of components of each of a plurality of vectors (X, Y) corresponding to lattice points of a transition source and a sum of components of each of a plurality of vectors (X, Y) corresponding to lattice points of a transition destination are obtained whereby an angle φ is obtained by an arctan, the plurality of vectors (X, Y) indicating the distortion correction parameters, a step angle ⊖ is obtained by dividing the angle φ by the number of steps of transition, the angle ⊖ is added to the angle φ of each of the lattice point of the transition source in every step, a coefficient Kx, for which the origin 0 is set as the center, is obtained by a sine function and Ky, for which the origin 0 is set as the center, is obtained by a cosine function, and the Kx and Ky are multiplied by X and Y, respectively, whereby interpolation is completed.

11. A monitoring system for transmitting an image captured by one or more monitoring cameras having a super-wide-angle lens through a transmission line to a host computer, the monitoring system comprising: a distortion corrector configured to correct distortion of image data caused by distortion aberration of the lens, the image data being obtained by being formed by the super-wide-angle lens and being captured by an imaging element, the distortion corrector being included in the one or more monitoring cameras; wherein the distortion corrector includes, a first storage unit configured to store first distortion correction parameters for correcting the distortion of the image data in a first state caused by the distortion aberration of the lens, a second storage unit configured to store second distortion correction parameters for correcting the distortion of the image data in a second state caused by the distortion aberration of the lens, and a distortion-correction-parameter interpolator configured to generate distortion correction parameters through interpolation when transition of the image data from the first state to the second state is performed, the distortion correction parameters indicating states of the image data during the transition of the image data and correcting the distortion of the image data caused by the distortion aberration of the lens, wherein when circular interpolation is performed using the distortion correction parameters, the distortion-correction-parameter interpolation means sets the origin of the image data as a center, a sum of components of each of a plurality of vectors (X, Y) corresponding to lattice points of a transition source and a sum of components of each of a plurality of vectors (X, Y) corresponding to lattice points of a transition destination are obtained whereby an angle φ is obtained by an arctan, the plurality of vectors (X, Y) indicating the distortion correction parameters, a step angle ⊖ is obtained by dividing the angle φ by the number of steps of transition, the angle ⊖ is added to the angle φ of each of the lattice point of the transition source in every step, a coefficient Kx, for which the origin 0 is set as the center, is obtained by a sine function and Ky, for which the origin 0 is set as the center, is obtained by a cosine function, and the Kx and Ky are multiplied by X and Y, respectively, whereby interpolation is completed.